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What Is Huntington's Disease? What Causes Huntington's Disease?
Huntington"s disease is an incurable, hereditary brain disorder. It is a devastating brain disorder for which there is no currently "effective" treatment. Nerve cells become damaged, causing various parts of the brain to deteriorate. The disease affects movement, behavior and cognition - the affected individuals" abilities to walk, think, reason and talk are gradually eroded to such a point that they eventually become entirely reliant on other people for their care. Huntington"s disease has a major emotional, mental, social and economic impact on the lives of patients, as well as their families.
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New Phase 3 Study Of Tapentadol Immediate Release Tablets Published In Current Medical Research And Opinion Journal
It is estimated that up to 30 percent of all people who have surgery experience gastrointestinal side effects, such as nausea and vomiting. The use of opioid pain medicines during and after surgery is a leading risk factor for experiencing these side effects. Nausea and vomiting are uncomfortable and bothersome and can have an impact on a patient"s recovery.
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Insmed Announces Results Of IPLEX(TM) Phase II Trial In Myotonic Muscular Dystrophy
Insmed Inc. (Nasdaq: INSM), a biopharmaceutical company, announced results from its exploratory U.S. Phase II clinical trial evaluating IPLEX(TM) (mecasermin rinfabate) in patients with myotonic muscular dystrophy ("MMD"). The randomized, double-blind, placebo-controlled Phase II trial conducted in 13 centers across the U.S. enrolled 69 patients with MMD, for a six-month period. As this was an exploratory trial, a primary endpoint was not pre-defined. The trial explored measures of endurance, using the six-minute walk test, muscle function and strength, cognitive function, gastrointestinal function, pain, quality of life, insulin sensitivity, lipid metabolism, and safety and tolerability of IPLEX(TM).
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Researchers Suggest That Oxidative Stress Is Strongly Evident In The In-Utero Environment Of The Fetus With Down Syndrome

A paper published in the Proceedings of the National Academy of Sciences by Tufts Medical Center and Tufts University researchers reports that amniotic fluid surrounding Down syndrome fetuses shows oxidative stress, a condition that could harm fetal cells and play a role in affected individuals. The results demonstrate secondary adverse consequences of Down syndrome and suggest potential prenatal therapies. Diana Bianchi, M.D., Vice Chair for Research, Department of Pediatrics at Floating Hospital for Children at Tufts Medical Center, and Donna Slonim, Ph.D., Associate Professor of Computer Science at Tufts University, conducted an analysis of the human genome from cell-free fetal messenger RNA in amniotic fluid surrounding fetuses. Their team identified molecular and biochemical pathway changes that were evident in the Down syndrome fetuses as compared to normal fetuses as early as the fourth month of pregnancy. Down syndrome occurs when an individual has three copies of chromosome 21 instead of two. The longstanding assumption has been that proteins produced by the additional copy of chromosome 21 were almost exclusively responsible for the atypical development and function associated with the syndrome. A surprising aspect of the findings was that the molecular abnormalities observed were predominantly produced by genes on the other chromosomes. As a next step, researchers are examining amniotic cells to determine if they show similar genomic profiles to the cell-free material in the fluid. If that is the case, they will begin to look at the effectiveness of anti-oxidant compounds as potential treatment in vitro. "While more research is needed, this study illuminates a possible pathway to treating some aspects of Down syndrome in the womb," Bianchi said. "While we do not know the extent to which the developing fetus is affected by oxidative stress, we know this abnormal environment is not conducive to optimal development." The analysis relied heavily on computer analysis and bioinformatics. To support their conclusions, the researchers applied the Connectivity Map, a tool linking information about genomics and FDA-approved compounds to suggest drug therapies for various disease pathways. This approach implicated the same underlying processes, and suggests directions for future work. Tufts Medical Center


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